Gintamo, Tesfaye TessemaMengistu, HaileKanyerere, Thokozani2022-01-132022-01-132021Gintamo, T. T. et al. (2021). GIS-based modelling of climate variability impacts on groundwater quality: Cape Flats aquifer, Cape Town, South Africa. Groundwater for Sustainable Development, 15, 100663. https://doi.org/10.1016/j.gsd.2021.1006632352-801Xhttps://doi.org/10.1016/j.gsd.2021.100663http://hdl.handle.net/10566/7086The need to improve groundwater security remains critical, especially in urban areas where demand for groundwater as an alternative source of water supply is increasing following unprecedented population growth. Climate change continues to threaten groundwater resources in such areas. This study assessed and analysed data from a variety of sources that required holistic analytical tools to demonstrate the impacts of climate change on groundwater quality at the local level. We evaluated how climate conditions affect groundwater quality using a hydrological model (WaterWorld model) in a GIS context. The Cape Flats Aquifer in the city of Cape Town in South Africa was chosen as a case study. The WaterWorld model was used to calculate hydrologic scenarios based on climate change factors and groundwater quality parameters for the period 1950–2000. Mean annual precipitation and temperature were simulated using the multi-model mean and Representative Concentration Pathway 8.5 for the years 2041–2060.enCape flatsClimate changeGroundwater qualityWaterWorld modelWater securityGIS-based modelling of climate variability impacts on groundwater quality: Cape Flats aquifer, Cape Town, South AfricaArticle